Effect of SiC adiition on microstructure and mechanical properties of the W/AgCuTi/Cu brazed joint

[1] Xu Yuxin, Qiu Xiaoming, Ruan Ye, Et al., Advances in the study of tungsten-based alloys for joining with steel heterogeneous materials, Transactions of the China Welding Institution, 42, 10, (2021)

[2] Chen Yuanting, Li Xianfen, Chen Baiyan, Research progress of tungsten brazing, Nonferrous Metal Materials and Engineering, 39, 6, pp. 32-36, (2018)

[3] Luo Ruixue, Li Zhengxian, Effect of different solders on the strength of Cu/W brazed joints, Hot Working Technology, 38, 9, (2009)

[4] Zou Guisheng, Wu Aiping, Gao Shouchuan, Et al., Vacuum brazing of tungsten, graphite and copper with Ag-Cu-Ti active brazing material[J], New Technology New Process, 6, pp. 40-42, (2002)

[5] Cai Yingjun, Wang Gang, Zhao Yu, Et al., Effects of AgCu/foam Cu/AgCu composite brazing materials on the organization and properties of brazed joints of ZrB₂-SiC/Inconel 600 alloy, Materials Engineering, 49, 10, (2021)

[6] Wang G, Cai Y, Xu Q, Et al., Microstructural and mechanical properties of inconel 600/ZrB₂-SiC joints brazed with AgCu/Cu-foam/AgCu/Ti multi-layered composite filler, Journal of Materials Research and Technology, 9, 3, (2020)

[7] Wang G, Cai Y, Wang W, Et al., AgCuTi/graphene-reinforced Cu foam: A novel filler to braze ZrB₂-SiC ceramic to Inconel 600 alloy[J], Ceramics International, 46, 1, (2020)

[8] Jin L, Lin J, Wang H, Et al., Carbon nanotubes-reinforced Ni foam interlayer for brazing SiO₂-BN with Ti6A14V alloy using TiZrNiCu brazing alloy[J], Ceramics International, 44, 4, (2018)

[9] Zhang L X, Zhang B, Sun Z, Et al., Brazing of ZrB₂–SiC–C and GH99 with AgCuTi/SiC interpenetrating network structural composite as an interlayer[J], Ceramics International, 46, 8, pp. 10224-10232, (2020)

[10] Zhang L X, Sun Z, Chang Q, Et al., Brazing SiO₂f/SiO₂ composite to Invar alloy using a novel TiO₂ particle-modified composite braze filler, Ceramics International, 45, 2, (2019)

[1] Xu Yuxin, Qiu Xiaoming, Ruan Ye, Et al., Advances in the study of tungsten-based alloys for joining with steel heterogeneous materials, Transactions of the China Welding Institution, 42, 10, (2021)

[2] Chen Yuanting, Li Xianfen, Chen Baiyan, Research progress of tungsten brazing, Nonferrous Metal Materials and Engineering, 39, 6, pp. 32-36, (2018)

[3] Luo Ruixue, Li Zhengxian, Effect of different solders on the strength of Cu/W brazed joints, Hot Working Technology, 38, 9, (2009)

[4] Zou Guisheng, Wu Aiping, Gao Shouchuan, Et al., Vacuum brazing of tungsten, graphite and copper with Ag-Cu-Ti active brazing material[J], New Technology New Process, 6, pp. 40-42, (2002)

[5] Cai Yingjun, Wang Gang, Zhao Yu, Et al., Effects of AgCu/foam Cu/AgCu composite brazing materials on the organization and properties of brazed joints of ZrB₂-SiC/Inconel 600 alloy, Materials Engineering, 49, 10, (2021)

[6] Wang G, Cai Y, Xu Q, Et al., Microstructural and mechanical properties of inconel 600/ZrB₂-SiC joints brazed with AgCu/Cu-foam/AgCu/Ti multi-layered composite filler, Journal of Materials Research and Technology, 9, 3, (2020)

[7] Wang G, Cai Y, Wang W, Et al., AgCuTi/graphene-reinforced Cu foam: A novel filler to braze ZrB₂-SiC ceramic to Inconel 600 alloy[J], Ceramics International, 46, 1, (2020)

[8] Jin L, Lin J, Wang H, Et al., Carbon nanotubes-reinforced Ni foam interlayer for brazing SiO₂-BN with Ti6A14V alloy using TiZrNiCu brazing alloy[J], Ceramics International, 44, 4, (2018)

[9] Zhang L X, Zhang B, Sun Z, Et al., Brazing of ZrB₂–SiC–C and GH99 with AgCuTi/SiC interpenetrating network structural composite as an interlayer[J], Ceramics International, 46, 8, pp. 10224-10232, (2020)

[10] Zhang L X, Sun Z, Chang Q, Et al., Brazing SiO₂f/SiO₂ composite to Invar alloy using a novel TiO₂ particle-modified composite braze filler, Ceramics International, 45, 2, (2019)